/*--------------------------------------------------------------------------/
/  FatFs - FAT file system module include file  R0.05        (C)ChaN, 2007
/---------------------------------------------------------------------------/
/ FatFs module is an experimenal project to implement FAT file system to
/ cheap microcontrollers. This is a free software and is opened for education,
/ research and development under license policy of following trems.
/
/  Copyright (C) 2007, ChaN, all right reserved.
/
/ * The FatFs module is a free software and there is no warranty.
/ * You can use, modify and/or redistribute it for personal, non-profit or
/   profit use without any restriction under your responsibility.
/ * Redistributions of source code must retain the above copyright notice.
/
/---------------------------------------------------------------------------*/

#ifndef _FATFS

#ifdef FATLPCMCI_MTH
/* mthomas: settings for ARM7 (most important: _MCU_ENDIAN 2) */

#define _MCU_ENDIAN		2
/* The _MCU_ENDIAN defines which access method is used to the FAT structure.
/  1: Enable word access.
/  2: Disable word access and use byte-by-byte access instead.
/  When the architectural byte order of the MCU is big-endian and/or address
/  miss-aligned access results incorrect behavior, the _MCU_ENDIAN must be set
/  to 2. If it is not the case, it can be set to 1 for good code efficiency. */

#define _FS_READONLY	0
/* Setting _FS_READONLY to 1 defines read only configuration. This removes
/  writing functions, f_write, f_sync, f_unlink, f_mkdir, f_chmod, f_rename
/  and useless f_getfree. */

#define _FS_MINIMIZE	0
/* The _FS_MINIMIZE option defines minimization level to remove some functions.
/  0: Full function.
/  1: f_stat, f_getfree, f_unlink, f_mkdir, f_chmod and f_rename are removed.
/  2: f_opendir and f_readdir are removed in addition to level 1.
/  3: f_lseek is removed in addition to level 2. */

#define _DRIVES		1 //2
/* Number of logical drives to be used. This affects the size of internal table. */

#define	_USE_MKFS	1
/* When _USE_MKFS is set to 1 and _FS_READONLY is set to 0, f_mkfs function is
/  enabled. */

#define	_MULTI_PARTITION	0
/* When _MULTI_PARTITION is set to 0, each logical drive is bound to same
/  physical drive number and can mount only 1st primaly partition. When it is
/  set to 1, each logical drive can mount a partition listed in Drives[]. */

#define _USE_FSINFO	1
/* To enable FSInfo support on FAT32 volume, set _USE_FSINFO to 1. */

#define	_USE_SJIS	1
/* When _USE_SJIS is set to 1, Shift-JIS code transparency is enabled, otherwise
/  only US-ASCII(7bit) code can be accepted as file/directory name. */

#define	_USE_NTFLAG	1
/* When _USE_NTFLAG is set to 1, upper/lower case of the file name is preserved.
/  Note that the files are always accessed in case insensitive. */

#else

#define _MCU_ENDIAN		0
/* The _MCU_ENDIAN defines which access method is used to the FAT structure.
/  1: Enable word access.
/  2: Disable word access and use byte-by-byte access instead.
/  When the architectural byte order of the MCU is big-endian and/or address
/  miss-aligned access results incorrect behavior, the _MCU_ENDIAN must be set
/  to 2. If it is not the case, it can be set to 1 for good code efficiency. */

#define _FS_READONLY	0
/* Setting _FS_READONLY to 1 defines read only configuration. This removes
/  writing functions, f_write, f_sync, f_unlink, f_mkdir, f_chmod, f_rename
/  and useless f_getfree. */

#define _FS_MINIMIZE	0
/* The _FS_MINIMIZE option defines minimization level to remove some functions.
/  0: Full function.
/  1: f_stat, f_getfree, f_unlink, f_mkdir, f_chmod and f_rename are removed.
/  2: f_opendir and f_readdir are removed in addition to level 1.
/  3: f_lseek is removed in addition to level 2. */

#define _DRIVES		1 //2
/* Number of logical drives to be used. This affects the size of internal table. */

#define	_USE_MKFS	0
/* When _USE_MKFS is set to 1 and _FS_READONLY is set to 0, f_mkfs function is
/  enabled. */

#define	_MULTI_PARTITION	0
/* When _MULTI_PARTITION is set to 0, each logical drive is bound to same
/  physical drive number and can mount only 1st primaly partition. When it is
/  set to 1, each logical drive can mount a partition listed in Drives[]. */

#define _USE_FSINFO	0
/* To enable FSInfo support on FAT32 volume, set _USE_FSINFO to 1. */

#define	_USE_SJIS	1
/* When _USE_SJIS is set to 1, Shift-JIS code transparency is enabled, otherwise
/  only US-ASCII(7bit) code can be accepted as file/directory name. */

#define	_USE_NTFLAG	1
/* When _USE_NTFLAG is set to 1, upper/lower case of the file name is preserved.
/  Note that the files are always accessed in case insensitive. */

#endif /* FATLPCMCI_MTHOMAS */

//#include "TYPE.H"

/* Definitions corresponds to multiple sector size (not tested) */
#define	S_MAX_SIZ	512			/* Do not change */
#if S_MAX_SIZ > 512
#define	S_SIZ	(fs->s_size)
#else
#define	S_SIZ	512
#endif


/* File system object structure */
typedef struct _FATFS {
	U32		id;				/* File system mount ID */
	U32		n_rootdir;		/* Number of root directory entries */
	U64		winsect;		/* Current sector appearing in the win[] */
	U64		sects_fat;		/* Sectors per fat */
	U64		max_clust;		/* Maximum cluster# + 1 */
	U64		fatbase;		/* FAT start sector */
	U64		dirbase;		/* Root directory start sector (cluster# for FAT32) */
	U64		database;		/* Data start sector */
#if !_FS_READONLY
	U64		last_clust;		/* Last allocated cluster */
	U64		free_clust;		/* Number of free clusters */
#if _USE_FSINFO
	U64		fsi_sector;		/* fsinfo sector */
	U8		fsi_flag;		/* fsinfo dirty flag (1:must be written back) */
	U8		pad2;
#endif
#endif
	U8		fs_type;		/* FAT sub type */
	U8		sects_clust;	/* Sectors per cluster */
#if S_MAX_SIZ > 512
	U32		s_size;			/* Sector size */
#endif
	U8		n_fats;			/* Number of FAT copies */
	U8		drive;			/* Physical drive number */
	U8		winflag;		/* win[] dirty flag (1:must be written back) */
	U8		pad1;
	U8		win[S_MAX_SIZ];	/* Disk access window for Directory/FAT */
} FATFS;


/* Directory object structure */
typedef struct _DIR {
	U32		id;			/* Owner file system mount ID */
	U32		index;		/* Current index */
	FATFS*	fs;			/* Pointer to the owner file system object */
	U64		sclust;		/* Start cluster */
	U64		clust;		/* Current cluster */
	U64		sect;		/* Current sector */
} FDIR;



/* File object structure */
typedef struct _FIL {
	U32		id;				/* Owner file system mount ID */
	U8		flag;			/* File status flags */
	U8		sect_clust;		/* Left sectors in cluster */
	FATFS*	fs;				/* Pointer to the owner file system object */
	U64		fptr;			/* File R/W pointer */
	U64		fsize;			/* File size */
	U64		org_clust;		/* File start cluster */
	U64		curr_clust;		/* Current cluster */
	U64		curr_sect;		/* Current sector */
#if _FS_READONLY == 0
	U64		dir_sect;		/* Sector containing the directory entry */
	U8*		dir_ptr;		/* Ponter to the directory entry in the window */
#endif
	U8		buffer[S_MAX_SIZ];	/* File R/W buffer */
} FIL;


/* File status structure */
typedef struct _FILINFO {
	U64	 fsize;			/* Size */
	U32	 fdate;				/* Date */
	U32	 ftime;				/* Time */
	U8	 fattrib;			/* Attribute */
	char fname[8+1+3+1];	/* Name (8.3 format) */
} FILINFO;



/* Definitions corresponds to multi partition */

#if _MULTI_PARTITION != 0	/* Multiple partition cfg */

typedef struct _PARTITION {
	U8	 pd;	/* Physical drive # (0-255) */
	U8	 pt;	/* Partition # (0-3) */
} PARTITION;
extern
const PARTITION Drives[];			/* Logical drive# to physical location conversion table */
#define LD2PD(drv) (Drives[drv].pd)	/* Get physical drive# */
#define LD2PT(drv) (Drives[drv].pt)	/* Get partition# */

#else						/* Single partition cfg */

#define LD2PD(drv) (drv)		/* Physical drive# is equal to logical drive# */
#define LD2PT(drv) 0			/* Always mounts the 1st partition */

#endif


/* File function return code (FRESULT) */

typedef enum {
	FR_OK = 0,			/* 0 */
	FR_NOT_READY,		/* 1 */
	FR_NO_FILE,			/* 2 */
	FR_NO_PATH,			/* 3 */
	FR_INVALID_NAME,	/* 4 */
	FR_INVALID_DRIVE,	/* 5 */
	FR_DENIED,			/* 6 */
	FR_EXIST,			/* 7 */
	FR_RW_ERROR,		/* 8 */
	FR_WRITE_PROTECTED,	/* 9 */
	FR_NOT_ENABLED,		/* 10 */
	FR_NO_FILESYSTEM,	/* 11 */
	FR_INVALID_OBJECT,	/* 12 */
	FR_MKFS_ABORTED		/* 13 */
} FRESULT;



/*-----------------------------------------------------*/
/* FatFs module application interface                  */

FRESULT f_mount (U8, FATFS*);						/* Mount/Unmount a logical drive */
FRESULT f_open (FIL*, const char*, U8);			/* Open or create a file */
FRESULT f_read (FIL*, void*, U32, U32*);			/* Read data from a file */
FRESULT f_write (FIL*, const void*, U32, U32*);	/* Write data to a file */
FRESULT f_lseek (FIL*, U64);						/* Move file pointer of a file object */
FRESULT f_close (FIL*);								/* Close an open file object */
FRESULT f_opendir (FDIR*, const char*);				/* Open an existing directory */
FRESULT f_readdir (FDIR*, FILINFO*);					/* Read a directory item */
FRESULT f_stat (const char*, FILINFO*);				/* Get file status */
FRESULT f_getfree (const char*, U64*, FATFS**);	/* Get number of free clusters on the drive */
FRESULT f_sync (FIL*);								/* Flush cached data of a writing file */
FRESULT f_unlink (const char*);						/* Delete an existing file or directory */
FRESULT	f_mkdir (const char*);						/* Create a new directory */
FRESULT f_chmod (const char*, U8, U8);			/* Change file/dir attriburte */
FRESULT f_rename (const char*, const char*);		/* Rename/Move a file or directory */
FRESULT f_mkfs (U8, U8, U32);					/* Create a file system on the drive */


/* User defined function to give a current time to fatfs module */

U64 get_fattime (void);	/* 31-25: Year(0-127 org.1980), 24-21: Month(1-12), 20-16: Day(1-31) */
							/* 15-11: Hour(0-23), 10-5: Minute(0-59), 4-0: Second(0-29 *2) */



/* File access control and file status flags (FIL.flag) */

#define	FA_READ				0x01
#define	FA_OPEN_EXISTING	0x00
#if _FS_READONLY == 0
#define	FA_WRITE			0x02
#define	FA_CREATE_NEW		0x04
#define	FA_CREATE_ALWAYS	0x08
#define	FA_OPEN_ALWAYS		0x10
#define FA__WRITTEN			0x20
#define FA__DIRTY			0x40
#endif
#define FA__ERROR			0x80


/* FAT sub type (FATFS.fs_type) */

#define FS_FAT12	1
#define FS_FAT16	2
#define FS_FAT32	3


/* File attribute bits for directory entry */

#define	AM_RDO	0x01	/* Read only */
#define	AM_HID	0x02	/* Hidden */
#define	AM_SYS	0x04	/* System */
#define	AM_VOL	0x08	/* Volume label */
#define AM_LFN	0x0F	/* LFN entry */
#define AM_DIR	0x10	/* Directory */
#define AM_ARC	0x20	/* Archive */



/* Offset of FAT structure members */

#define BS_jmpBoot			0
#define BS_OEMName			3
#define BPB_BytsPerSec		11
#define BPB_SecPerClus		13
#define BPB_RsvdSecCnt		14
#define BPB_NumFATs			16
#define BPB_RootEntCnt		17
#define BPB_TotSec16		19
#define BPB_Media			21
#define BPB_FATSz16			22
#define BPB_SecPerTrk		24
#define BPB_NumHeads		26
#define BPB_HiddSec			28
#define BPB_TotSec32		32
#define BS_55AA				510

#define BS_DrvNum			36
#define BS_BootSig			38
#define BS_VolID			39
#define BS_VolLab			43
#define BS_FilSysType		54

#define BPB_FATSz32			36
#define BPB_ExtFlags		40
#define BPB_FSVer			42
#define BPB_RootClus		44
#define BPB_FSInfo			48
#define BPB_BkBootSec		50
#define BS_DrvNum32			64
#define BS_BootSig32		66
#define BS_VolID32			67
#define BS_VolLab32			71
#define BS_FilSysType32		82

#define	FSI_LeadSig			0
#define	FSI_StrucSig		484
#define	FSI_Free_Count		488
#define	FSI_Nxt_Free		492

#define MBR_Table			446

#define	DIR_Name			0
#define	DIR_Attr			11
#define	DIR_NTres			12
#define	DIR_CrtTime			14
#define	DIR_CrtDate			16
#define	DIR_FstClusHI		20
#define	DIR_WrtTime			22
#define	DIR_WrtDate			24
#define	DIR_FstClusLO		26
#define	DIR_FileSize		28



/* Multi-byte word access macros  */

#if _MCU_ENDIAN == 1	/* Use word access */
#define	LD_U32(ptr)			(U32)(*(U32*)(U8*)(ptr))
#define	LD_U64(ptr)			(U64)(*(U64*)(U8*)(ptr))
#define	ST_U32(ptr,val)		*(U32*)(U8*)(ptr)=(U32)(val)
#define	ST_U64(ptr,val)		*(U64*)(U8*)(ptr)=(U64)(val)
#else
#if _MCU_ENDIAN == 2	/* Use byte-by-byte access */
#define	LD_U32(ptr)			(U32)(((U32)*(volatile U8*)((ptr)+1)<<8)|(U32)*(volatile U8*)(ptr))
#define	LD_U64(ptr)			(U64)(((U64)*(volatile U8*)((ptr)+3)<<24)|((U64)*(volatile U8*)((ptr)+2)<<16)|((U32)*(volatile U8*)((ptr)+1)<<8)|*(volatile U8*)(ptr))
#define	ST_U32(ptr,val)		*(volatile U8*)(ptr)=(U8)(val); *(volatile U8*)((ptr)+1)=(U8)((U32)(val)>>8)
#define	ST_U64(ptr,val)		*(volatile U8*)(ptr)=(U8)(val); *(volatile U8*)((ptr)+1)=(U8)((U32)(val)>>8); *(volatile U8*)((ptr)+2)=(U8)((U64)(val)>>16); *(volatile U8*)((ptr)+3)=(U8)((U64)(val)>>24)
#else
#error Do not forget to set _MCU_ENDIAN properly!
#endif
#endif


#define _FATFS
#endif /* _FATFS */
